托卡马克等离子体控制系统中包括了对不同控制对象的PID控制。
The plasma control system of Tokamak consists of PID control for different objects.
该设计方案已成功的应用于等离子体渗氮控制系统,实际应用表明:系统结构简单,易于扩充,性能稳定可靠。
This design has been successfully applied in plasma nitriding controlling system. The fact indicates that this system has simple structure and stable performance, and also tend to be expanded.
本文介绍了中科院等离子体所ht - 6m托卡马克装置新的控制系统的设计方法、工程实现及实验运行结果。
The design, realization and experiment result of new control system of HT-6M tokamak based PC real time control have been described.
在理论分析了水中等离子体产生机理及其推进效应的基础上,建造了由水射流等离子弧推进系统、供水系统及控制系统组成的推进模型。
The thrust model made of propulsion system, water supply and control system was designed on the basis of analysis on the mechanism of water plasma and thrust effect.
HL 2A装置反馈控制系统的主要任务是逐步实现对等离子体电流、位移、形状和密度的实时反馈控制,从而能够按照实验目的对托卡马克等离子体进行各种试验。
The feedback control system of HL-2A device is designed to control the current, displacement, configuration and density of plasma on real-time, so some plasma parameters can be achieved as expected.
研究设计等离子体能量传递模糊控制系统,使等离子体炬工作在最佳状态。
A fuzzy control system of plasma energy transfer is designed to make the plasma torch work best.
研究设计等离子体能量传递模糊控制系统,使等离子体炬工作在最佳状态。
A fuzzy control system of plasma energy transfer is designed to make the plasma torch work best.
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